|Publication number||US7789884 B2|
|Application number||US 11/199,907|
|Publication date||Sep 7, 2010|
|Filing date||Aug 9, 2005|
|Priority date||Oct 12, 2004|
|Also published as||CA2523163A1, CA2523163C, DE602005005599D1, DE602005005599T2, EP1652482A1, EP1652482B1, US20060079906|
|Publication number||11199907, 199907, US 7789884 B2, US 7789884B2, US-B2-7789884, US7789884 B2, US7789884B2|
|Inventors||Andrew John Timperley, Philippe Lavieille, Pascal Collet, Franck Le Bon, Robin Sydney Mackwood Ling, Graham Allan Gie|
|Original Assignee||Benoist Girard Sas|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (21), Non-Patent Citations (1), Classifications (15), Legal Events (4)|
|External Links: USPTO, USPTO Assignment, Espacenet|
This invention relates to an acetabular rim cutter which can be used for cutting the outer rim of an acetabulum to form an annular seating surface to receive a flanged acetabular cup or a rim cutter and acetabulum reamer which has the dual function of reaming an acetabulum and then cutting its rim. Such a flanged cup is sold by Stryker Corporation as the Exeter™ Contemporary Flanged Cup.
Rotary cutters are known but use of such rotary cutters for treating the rim of an acetabulum is difficult because the surgeon has difficulty in locating the cutter with sufficient accuracy.
There are also difficulties in cutting the rim of an acetabulum so that the annular seating surface is a predetermined distance from the base of the acetabulum and that the part-spherical bearing surface of the cup is at a desired depth from the cut seating surface so that there is a regular seating surface. The present invention is intended to overcome some of the difficulties referred to above.
According to one aspect of the present invention an acetabular rim cutter comprises an annular cutting face provided on a rotatable carrier. A coupler is provided for attaching the carrier to a rotation power source. A guide element is axially aligned with the cutting face to locate and align the cutting face on the acetabulum with which it is to be used.
Preferably the guide element is axially movable in relation to the cutting face, and a resilient element is provided for biasing it axially away therefrom.
Thus, the guide element can be of a part-spherical shape which locates in the acetabulum and ensures that the axis of the annular cutting face is correctly aligned.
In a preferred embodiment the guide element is freely rotatable in relation to the rotatable carrier and it can be made from, for example, a synthetic plastics material.
The annular cutting face is preferably provided with radial cutting teeth.
An operating handle can be provided which is axially aligned in relation to the rotatable carrier and which is free to rotate in relation thereto thus providing a method for the surgeon to operate the equipment.
The rotatable carrier can be connected to an extension the end of which is adapted to receive the rotation source and on which the operating handle is located.
A depth cutting control system is also preferably provided which act to determine the depth and cut in relation to the base of the acetabulum with which it is to be used.
In order to provide a modular construction a number of guide elements can be provided which are used respectively to provide different depths of cut and which can be of different diameters to appropriately suit the acetabulum which is to be cut.
The apparatus can also include an acetabulum surface reamer which is adapted for attachment to the rotation means in place of the rotatable carrier and the guide element.
These aspects of the invention are provided by an acetabular cutter for preparing an acetabulum which has a hollow handle, a drive shaft rotatably mounted within the hollow handle with the shaft having a rotating head at a first end and a second end coupled to a power source. The power source may be an electrical or pneumatic powered hand piece. An acetabular rim cutter is connected to the drive shaft rotating head at a first end of the head with the cutting having teeth thereon concentric about a rotational axis of the head a preferably lying in a plane such as to be able to cut a circular groove around the rim of the acetabulum. A guide element is mounted on the handle for engaging the acetabulum and extending beyond the first drive shaft end. The guide element is axially movable with respect to the shaft of the drive axis and is spring-biased against the acetabulum so that the guide element may be placed within the acetabular cavity and the rim cutting element moved axially with respect hereto. The guide element is preferably dome shaped. Both the dome element and the rim cutter may be removably connected to the rotating head of the drive shaft so that cutters and elements of different sizes can be utilized. These cutter elements and drive tools may be supplied in a kit which includes one or more rotary drive tools, a plurality of dome shaped cutting elements which are used for preparing the acetabulum and a plurality of rim cutting elements to cut a groove around the cavity prepared by the dome shaped cutting elements. A plurality of rotary drive tool handles can be used of different lengths and even of different configurations such as being S-shaped or curved. A plurality of dome shaped members may also be provided.
The invention can be performed in various ways but one embodiment will now be described by way of example and with reference to the accompanying drawings in which:
As shown in the drawings an acetabular rim cutter according to a preferred embodiment of the present invention comprises an annular cutting face 2 which has radial cutting teeth 3 and which is provided on a rotatable carrier 4, the construction of which is most clearly shown in
Extending over the spindle 5 is a locking sleeve 12 which is biased towards the carrier by a spring 13 and the end of which is of similar shape to the triangular shaped end piece 6 but its corners 12 a have flats 12 b which are dimensioned to engage three of the sides of the hexagon 7 of the carrier 4. The corners 12 also have slats 14 which can engage the abutment 11. In
Located on the hollow drive spindle 5 is an extension shaft 15 on which is a freely rotatable operating handle 16 which has a pair of arcuate prongs 17, the inner diameters of which are less than the diameter of the extension shaft 15, and which engage a portion 26 of the shaft 15 which is of reduced diameter. The end of the handle and the prongs 17 are held in position by the resilient effect. The prongs 17 are also held by a retainer 27
The outer end of the extension shaft 15 carries a boss 18 for connecting it to a rotary power drive of known type and which is indicated by reference letters PD in
Also mounted on the extension shaft 15 is a sleeve 19 which extends into the locking sleeve 12 and retains the spring 13.
The hollow drive spindle 5 has a bore 20 in which is mounted a location shaft 21 the outer end 22 of which is screw threaded for attachment to a guide element 23 which has a part-spherical shape. The inner end 24 of the bore 20 has a location groove 25 which can be engaged by a resiliently biased plunger 28 which is carried in the triangular end piece 6 (as shown in
The shaft 21 is biased to the right, as shown in
In an alternative construction (not shown) the spring loaded plunger 28 can be replaced by a resilient O-ring which can engage the groove 25 and can be mounted on the bore 20.
A location guide 35 of known kind is provided on the handle 16.
The depth of cut of the annular bearing surface 41 is determined by the length of the shaft 21 which can be arranged so that the depth of the cut in relation to the base of the acetabulum 44 can be previously determined according to the length of the shaft 21. Thus, the surgeon can be provided with a series of cups of different shapes and shaft lengths to provide a modular construction which can be used in different circumstances depending upon the requirements of the type of acetabular cup used and the surgical implications.
The length of the shaft 21 therefore acts as depth cutting control means.
The guide element 23 can be made of any suitable material, for example metallic material.
The reamer has a base 54, the plan shape of which is best shown in
The reamer can therefore be used with the rim cutter by removing the rotatable carrier 4 and replacing it with the reamer 50 thus enabling the apparatus to have a dual purpose.
The reamer can be attached first and used to ream the acetabulum with which it is to be used, the reamer can then be removed and replaced by the rim cutter.
The acetabular rim cutter or rim cutter and acetabulum reamer combined may particularly, although not exclusively, adapted for use with apparatus as set for in U.S. Pat. Nos. 5,879,402 and 6,264,698 for implanting an acetabular cup utilizing a loading tube.
The surgical technique on an exposed acetabulum cup will now be described.
The true medial wall of the acetabulum is identified by using reamers or a long-handled gouge to remove any curtain ostephytes and expose the true medial wall of the acetabulum.
Powered reamers are then used, increasing in size in 2 mm increments to remove cartilage and subchondral bone. Care is taken not to thin the walls excessively. A note is made of the largest reamer used to clear the rim of the acetabulum. Often it is useful to revert to a smaller reamer to further expose trabecular bone; particular attention is paid to the rim of the acetabulum since it is important to achieve interdigitation of bone in this area.
A step drill is used to make multiple holes. The smaller part of the drill is used all around the rim of the socket, the larger part of the step makes multiple holes in the dome of the ilium, pubis and ischium. Care is taken not to perforate the walls. If this does occur then morcellised bone graft is packaged into the hole to prevent egress of cement during cementation.
A cup with an outside diameter 2 mm smaller than the largest reamer used is usually the appropriate implant. The rim cutter marked with the same size as the cup is attached to a power tool. This will cut a groove in the periphery of the acetabulum of the appropriate diameter for the flange. The hemispherical guide of the rim cutter centralizes the cutter in the reamed socket and sets the depth of the rim and thus the position of the cup. The orientation of the rim cutter is shown by the alignment rod on the device. Alternately, the orientation may be accomplished by a computer-aided optical navigation system (see U.S. Pub. No. 2004/0153080. Accurate inclination and flexion can be ensured by using a navigation device on the shaft of the rim cutter. The rim cutter is advanced to the fullest extent allowed by exerting pressure against the spring between the dome and the cutting ring. Any debris created including the innermost fibers of the transverse ligament are excised. The flange is trimmed to the diameter defined by the chart to fit within the rim. A trial reduction may be carried out if desired.
An aspirator device is turned on at this point and, to save time, the nursing staff asked to start mixing the cement during final preparation of the bone. Thorough lavage of the socket is carried out to clean the interstices of the trabecular bone of marrow and fat. Fluid is aspirated out of the wing of the ilium by the aspirator. When the bone is clean, hydrogen peroxide soaked gauze swabs are packed into the socket to further clean the bone and promote haemostasis.
The cement may be handled approximately 3.5 minutes after mixing (Simplex™ P cement at 20 degrees centigrade). Immediately before the cement is placed in the socket, bone graft reamings may be impacted against the smooth cortical medial wall since the cement cannot adequately gain fixation against a surface of this sort. After introduction of the cement bolus excess material is removed so the surface of the cement lies with a slightly concave surface within the mouth of the socket. This step prevents the escape of surplus cement into the soft tissues when the acetabular pressurizer is applied.
The cement pressurizer consists of a saline filled balloon which can be inflated from a reservoir in the handle of the device. The pressurizing technique entails inflating the balloon so that it conforms perfectly with the mouth of the socket. Full body weight is applied to the device to drive the cement into the bone and, by maintaining pressure, protect the bone cement interface from back-bleeding from the host bone. The aspirator also serves to suck cement into the wing of the ilium and remove blood from the interface. If there is excessive blood loss through the aspirator the level of vacuum should be reduced.
The pressurizer is applied as soon as the cement has been placed in the socket and full pressure is maintained until the cement viscosity has risen to a level of viscosity suitable for the insertion in the cup—usually about 6 minutes after the commencement of mixing. In the elderly, or where it has been possible to expose a larger surface area of trabecular bone, it is possible that so much cement is pressurized into the acetabulum that a further bolus is required on top of the initial bolus of cement. This will become apparent when the pressurizer is removed. If more cement is to be used, then the existing cement should be dried before it is applied.
A flanged prosthetic cup is then inserted, as trialed, using an introducer and an axial pusher to drive the cup to the seated position. This insertion will likely require significant force and there should be a constant flow of cement around the edge of the cup. Excess cement can be removed with a small curette. The timing is perfect when the cup flange is delivered to the final seated position just as it is impossible to further advance the cup into the viscous cement. The post-operative radiograph should show good cement penetration and no radiolucent lines in any zone. The principle is to cut a rim around the periphery of the acetabulum to a set depth. The flange of the socket seats into this rim thus guaranteeing the correct orientation and depth of insertion of the socket if the rim cutter has been used correctly. Accurate positioning can be ensured since the rim cuter can be navigated to the desired position. Another benefit of this technique is that it allows the possibility of carrying out a trial reduction to test stability and leg length before cementation; the trimmed socket may be introduced into the acetabulum supported only by the flange resting in the rim and the hip reduced with the trial femoral component in place.
Although the invention herein has been described with reference to particular embodiments, it is to be understood that these embodiments are merely illustrative of the principles and applications of the present invention. It is therefore to be understood that numerous modifications may be made to the illustrative embodiments and that other arrangements may be devised without departing from the spirit and scope of the present invention as defined by the appended claims.
|Cited Patent||Filing date||Publication date||Applicant||Title|
|US3550229 *||Nov 9, 1967||Dec 29, 1970||Zenses Carl||Rasp and method for its manufacture|
|US4273117||Aug 24, 1979||Jun 16, 1981||Neuhaeuser Hans G||Apparatus for drilling bone|
|US4579486 *||Sep 5, 1984||Apr 1, 1986||George Damico||Hole saw guide|
|US4662891 *||Nov 21, 1983||May 5, 1987||Joint Medical Products Corporation||Fixation elements for artificial joints|
|US4712951 *||Aug 26, 1985||Dec 15, 1987||Brown Byron L||Tool for cutting annular groove|
|US5217499||May 15, 1991||Jun 8, 1993||Minnesota Mining And Manufacturing Company||Rim-bearing acetabular component of hip joint prosthesis|
|US5462548 *||Jul 6, 1992||Oct 31, 1995||Pappas; Michael J.||Acetabular reamer|
|US5817096 *||Nov 25, 1996||Oct 6, 1998||Othy, Inc.||Tool driver|
|US5976148 *||Nov 12, 1997||Nov 2, 1999||Ppc||Set of ancillary equipment for the implantation of acetabular cups of hip prosthesis, and prosthetic acetabular cup assembly ready to be implanted|
|US6283971 *||Apr 25, 2000||Sep 4, 2001||Randy S. Temeles||Expandable acetabular reaming system|
|US6305885 *||Jun 26, 2000||Oct 23, 2001||Leo Linthicum||Hole enlargement apparatus|
|US6918914 *||Jul 10, 2003||Jul 19, 2005||Clayton T. Bauer||Minimally invasive adjustable acetubular reamer|
|US20020099380 *||Nov 19, 2001||Jul 25, 2002||Salyer Paul E.||Tool driver|
|US20030163135 *||Feb 22, 2002||Aug 28, 2003||Hathaway Ray W.||Orthopeadic reamer with see-through viewing windows|
|US20040073224 *||Jul 10, 2003||Apr 15, 2004||Bauer Clayton T.||Minimally invasive adjustable acetubular reamer|
|US20040073226 *||Feb 26, 2002||Apr 15, 2004||Anton Cotting||Positioning instrument for inserting an extension shell|
|US20050159751 *||Jan 12, 2005||Jul 21, 2005||Berthusen Andrew H.||Variable angle orthopaedic reamer driver|
|DE2830566A1||Jul 12, 1978||Jan 24, 1980||Gustav Neuhaeuser Praezisionsw||Hip-bone recess former - has adjustable alignment and guide mechanism which is automatically locked in set position|
|DE2838348A1||Sep 2, 1978||Mar 6, 1980||Neuhaeuser Hans G||Vorrichtung zum ausformen einer knochenoeffnung, insbesondere im hueftbein zum einsetzen einer kuenstlichen gelenkpfanne|
|EP0139356A1||Jul 23, 1984||May 2, 1985||Pfizer Hospital Products Group, Inc.||Acetabular cup prosthesis|
|EP0650707A1||Oct 25, 1994||May 3, 1995||Howmedica International Inc.||Apparatus for implanting an acetabular cup|
|1||*||http://dictionary.reference.com, printshot of the definition of "planar" accessed, Dec. 2, 2009.|
|U.S. Classification||606/81, 606/79, 606/80|
|International Classification||A61F2/34, A61B17/17, A61F2/46, A61B17/16, A61F2/30|
|Cooperative Classification||A61F2/30724, A61F2002/4631, A61F2002/3446, A61B17/1746, A61B17/1666, A61F2002/3429|
|Nov 4, 2006||AS||Assignment|
Owner name: BENOIST GIRARD SAS, FRANCE
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:LING, ROBIN SYDNEY MACKWOOD;GIE, GRAHAM ALLAN;TIMPERLEY,ANDREW JOHN;AND OTHERS;SIGNING DATES FROM 20051010 TO 20051103;REEL/FRAME:018483/0525
|Nov 29, 2006||AS||Assignment|
Owner name: BENOIST GIRARD SAS, FRANCE
Free format text: RE-RECORD TO CORRECT THE NAME OF THE SIXTH ASSIGNOR, PREVIOUSLY RECORDED ON REEL 018483 FRAME 0525;ASSIGNORS:LING, ROBIN SYDNEY MACKWOOD;GIE, GRAHAM ALLAN;TIMPERLEY, ANDREW JOHN;AND OTHERS;SIGNING DATES FROM 20051010 TO 20051103;REEL/FRAME:018586/0855
|Jan 22, 2013||AS||Assignment|
Owner name: STRYKER IRELAND LIMITED, IRELAND
Free format text: CONFIRMATORY LICENSE;ASSIGNOR:BENOIST GIRARD SAS;REEL/FRAME:029674/0420
Effective date: 20121126
Owner name: STRYKER IRELAND LIMITED, IRELAND
Free format text: CONFIRMATORY ASSIGNMENT;ASSIGNOR:BENOIST GIRARD SAS;REEL/FRAME:029674/0420
Effective date: 20121126
|Mar 6, 2014||FPAY||Fee payment|
Year of fee payment: 4